Canadian projects of houses and cottages. Frame house using Canadian construction technology. Rafter system and roof

In recent years, the share of frame houses developed using Canadian technology in Russian construction has increased. Subsequently, they were improved by craftsmen from Germany, Finland, and Sweden, who made various additions based on the climate conditions in a particular country.

Canadian frame houses are built in the form of a multi-layer pie. First, a frame is made of timber, and then special panels, which consist of several layers, are fixed to this structure. The insulating material is placed between two layers made of chipboard.

Siding, clapboard or false beams are then sewn onto the panels, with a special film placed underneath them, thanks to which the structure is protected from the negative effects of the environment and temperature changes.

Benefits of Canadian technology solutions

Houses using Canadian technology are usually chosen by middle class people. What are the advantages of this type of construction?

• The buildings are erected at economically advantageous prices. Each of the frame-based buildings costs half as much as the brick version.
• The building is erected quickly in comparison with other technological solutions.
• The presence of warmth and good atmosphere in the house.
• Energy costs are saved.
• Maintenance of the building is cheaper compared to stone houses.
• Ease of repair work.
• There is no need to install a heavy and expensive foundation.
• Possibility of a large choice. The house can be built according to a standard design and economy class style.
• Originality of architectural solutions.
• Construction can be carried out on any site.
• Communication can be done simply.
• If necessary, a building created using Canadian technology can also be quickly dismantled and installed in a new location. Which is a clear advantage of such frame buildings.

Negative points

Unfortunately, building houses using Canadian technology also has some negative sides. If the structure is assembled incorrectly, you may encounter high heat losses. But the house should provide ventilation so that the thermal insulation layers do not rot.

When assembling the structure, attention should be paid to the choice of material. The raw materials must be dry. If you ignore this, then mold and cracks may appear, as a result of which the structure may completely collapse.

Frame houses have lower sound insulation than buildings with denser materials. But if during assembly you install an additional layer of material that prevents the appearance of sound and noise, then this negative point is completely eliminated.

Stages of building houses based on Canadian technologies

Before construction begins, you can view photos of houses, the construction of which is carried out using a variety of technologies, including Canadian ones.

Having decided on the design of the future building, it is necessary to develop a project. You can draw it yourself or seek help from people knowledgeable in this area. Having received a project for a Canadian house, you should purchase all the building materials necessary for construction.

After clearing the area allocated for construction from various debris, grass and bushes, you should work on the base site, which will serve as the basis for the rest of the structure. The foundation and floor act as the base platform.

Initially, it is necessary to arrange a rough version of the floor. The structure is made from the cheapest materials, which are unedged boards. You need to know that the walls and floors in Canadian-style houses are made from the same type of wood.

To ensure the stability and reliability of the frame structure during construction, special reinforcement is laid and a concrete foundation is poured. A few weeks after pouring the foundation, it is necessary to lay boards that will help indicate the location of walls and rooms in the future structure.

To prevent rotting, the wood should be treated with antiseptic agents. A layer of roofing material and insulation should be placed between the foundation and the boards. The boards are reinforced with special anchor bolts.

After the floor is made, you can begin to build the walls, checking their levelness using a level. If you do not comply with this, then there may be a distortion of the design in the future.

First, the lower trim is constructed in the form of a beam, which has special grooves. Vertical boards about 2.7 meters high are measured and sawn. Then steel pins are inserted into the locations of the racks. Assemble the frame from the corner. The bars are inserted into the dowels and then secured with temporary jibs. The installation of intermediate bars is carried out similarly.

At the next stage, the top trim is carried out. To do this, it is necessary to use similar bars with grooves, which are used in the process of lower strapping. The top trim is fixed with nails.

After the frame is made, the temporary jibs are dismantled and replaced with permanent ones. This will help give the structure additional strength and relieve part of the load.

Then the ceiling beams are fastened. They are made from bars measuring 5 by 15 cm. There should be a half-meter distance between the beams. Make sure that the beams and racks placed vertically do not coincide. A beam should be installed in the house as a support in place of the partition between the rooms.

Rafters are installed on top of the frame. Their role is played by boards with a thickness of 5 cm and a width of 10 cm. Then the lathing should be laid at an angle of 45-50 degrees.

The rafters are fastened with 15 cm nails. To make the structure durable, a ridge board is placed on the central rafters. At the next stage, the sheathing is performed, followed by laying roofing material on it. Then roofing material in the form of slate or tiles should be laid on its surface. Slate nails help with fastening.

In the future, it is worth taking care of the external wall cladding. Initially, take the boards and cut them depending on the size of the frame. The back wall is sheathed last.

Attaching the first board starts from the bottom. A board is attached to each of the racks with 5-centimeter nails. It is worth making sure that the connections and grooves fit tightly. After the entire frame is sheathed, it is worth using a sealant to protect it from the negative influence of the environment.

If all precautions are strictly observed at each stage, a high-quality house will quickly be obtained. You can build it yourself or with the help of professionals. In any case, it is worth reviewing all the pros and cons of the designs in order to avoid unpleasant moments in the future.

Photos of Canadian houses

Construction of a house begins with a project. Canadian technology for building frame houses successfully combines the customer's wishes: lightweight, durable construction, quick assembly, saving money. The implementation of an architectural project, taking into account the connection to the terrain, is also important.

Canadian technologies - building codes (Code) and methods for connecting house parts, which are used in Canada and America. The project consists of architectural, structural, engineering and economic sections.

Where does construction using Canadian technology begin?

Constructive section - part of the project, where the sequence of work is indicated, drawings of structural elements:

• foundation;
• floors;
• walls and partitions;
• rafter system;
• roof.

Each part is numbered, dimensions and locations in the element are indicated.

The stages of construction of frame houses in Canada are controlled by the state. Compliance with the Code, the accepted building code for the province, ensures quality. So much for the difference between following the Russian SNiP And Code.

Private construction in Russia is not controlled by state inspection, so the customer needs to do it himself or hire a construction engineer. Following the building codes of Canada and America, it is prohibited to erect residential buildings on pile or shallow strip foundations. Here is one of the foundation schemes in Canada.

Video - How to build a frame house using Canadian technology

Stages of building a frame house

The construction site is leveled, the fertile layer of soil is removed, and stored. They dig a pit below the soil freezing zone (for central Russia 1.50-1.80 m). A monolithic slab is poured around the perimeter of the external walls. Slab cross-section dimensions: height 150 mm width 300 mm. Reinforcement is installed along the entire length of the slab. In the diagram it consists of two rods. Shallow slabs are poured under the internal walls and beam ceilings, then, during the installation of the basement floor, timber columns are installed on them.

After checking the horizontal level of the base, diagonals and right angles, proceed to tying the beds (board 150x50 mm). Along the perimeter of the base in the center at a distance 1-2 meters anchor pins are attached for fastening the beds. The board is laid out on top of the plinth, cut to size, then the places for drilling holes for the studs are marked. A rolled glass wool gasket is placed between the surface of the plinth and the bed. The beds are secured with nuts and washers to the base (see diagram above).

Even at the stage of construction of the base, pockets were made in advance in places where the floor beams were supported. Opposite them, slots are made in the beds to insert the ends of the beams. The cord is pulled along the axis of the beams and the height of each of the intermediate supports is noted. Distances are written down in a notebook, and then from the timber 100x100 mm prepare support posts and attach them to the base of the slabs. Distance between posts no more than 2 meters. The racks are fastened with 4 nails on 80 mm, 2 on each side.

After installing the racks, timber beams are laid on them 100x100 mm. They are attached in the same way, only the nail is driven at an angle into the beam. At this stage, the alignment of the beams is regularly checked. Eliminate defects immediately: before moving on to the next assembly of the frame element, check the location of the parts with the drawing.

Assembling the floor joists

First, a tied beam - board - is nailed along the perimeter of the bed 150x50 mm. It is placed on its edge on the edge of the bed and nailed to it on 90 mm, first to the end, and then. every 40 cm. Having completed the external piping, markings are made for the floor joists, which will lie across the floor beams at intervals 40 cm. Prepare in advance the required number of lags and spacers of length 40 cm for structural rigidity and a given interval between logs. The logs are laid out on the floor beams. The ends of the lags are placed edgewise on the bed and secured with 2 nails at the end and a nail in the bed on both sides. The logs are overlapped together not less than 10 cm above the floor beam.

First, 2 nails are driven into the lintel, then 2 nails on both sides into the joints and one nail at an angle into the beam. The logs are leveled, and then they begin to lay sheet material on the rough covering (multilayer plywood, OSB board). But first, they lay utility lines inside the base.

Laying floor sheets

The sheathing is done with 2 cm tongue-and-groove plywood. We mark the first row. Apply glue (liquid nails) in places where they are pressed against the joists. This prevents squeaking when walking. Nailing to the joists 70 mm nails at a distance 10 cm along the perimeter, 15 cm inside the building and 30 cm along the lag. First, apply glue (liquid nails) in places where they are pressed against the joists.

According to technology, this prevents squeaking when walking. In the places where the sheets join, leave a gap equal to the thickness of the nail. The second and subsequent rows are laid in a checkerboard pattern.

Assembling the wall frame

We prepare the frame elements of the external walls according to the dimensions specified in the project.

The drawing shows the places where reinforcement of the frame is required: window and door openings. We make markings on the floor of the walls of the first floor, marking the places where the elements meet. Let's start assembling the outer walls. The dimensions are transferred to the floor and assembly begins. You will need knowledge of the technology for assembling openings. The diagram shows window and door openings.

Distance between frame posts 40 cm. This gap is necessary for laying insulation between them.

Video - Assembly and lifting of frame walls using Canadian technology (6x8 frame house)

Joining the corners of adjacent walls

Before raising the walls, tie the corners at the junction. The design documentation contains a drawing describing the technological operation. Here are 2 ways of strapping: on the left from 3 boards 150x50 mm, on the right of 3 boards on 150x50 mm and one board 100x50 mm.

The second method is preferable, since the cold bridge is insulated with insulation. Internal adjacent walls are connected in three boards; here there is no cold bridge. After raising the walls, they are leveled, then markings are prepared for installing floor beams.

Ceiling and interfloor coverings

One-story buildings are designed with a cold attic or a warm residential attic. Guided by the project, floor beams are prepared. The beam pitch is 40 cm. When drawing up a project, engineers calculate the loads on the beams. The beams are laid on the top frame of the walls, mounted according to the instructions set out in the project. To understand how the unit is arranged: wall, beam, rafters, consider the layout.

The gable beam is placed flat on the top frame. At the point where it abuts the wall, a groove is cut into the beam for the rafter board. Pay attention to the angle of inclination. In Canada, some departments require a ratio of 4 inches to 12 - 18.5 degrees. In any case, follow the design and cut the corners correctly. In snowy regions a slope is required 40 degrees. It is better to place the rafter spacers perpendicularly, then you will not have to plan the protruding part.

Floor beams are also the floor joists of the attic or attic. Installation in steps 40 cm needed for laying thermal insulation. When all the beams are in place, check the fastening locations again using the drawing. Immediately after installing the beams, it is recommended to install a rafter system and mount the roof. So protect the building from bad weather.

Rafter system and roof

This element of the house is experiencing wind and snow loads, therefore, the roof slope is regulated for each department. Roof shapes may vary. For frame houses, the gable form is the most common because it is easy to manufacture, install, and costs less. An attic room or a cold attic is built underneath it.

We will not consider other forms for now. It is important to understand how to properly sheathe the rafter system so that heat does not escape through the roof and it is not hot in the summer. The rafter boards are prepared at the bottom, then brought to the top and laid out in the marked places. Start installation.

A control post is nailed to the center of the façade so that the ridge runs along the central axis of the roof. The stand is auxiliary; it makes it easy to control the vertical plane. First, the rafters are mounted from the front walls, then between them, where the vertex of the triangle is formed, a ridge board is laid 200x50 mm. Supports are installed every 3 meters. Additionally strengthened with bevels. The remaining rafters are installed.

Note! The attic space is non-residential and is usually used for storing things. Sometimes a ventilation system is installed in the attic. It is necessary for frame buildings.

If the rafters are long, then they will bend under the weight of the snow, so designers recommend installing an additional supporting structure in the place of possible deflection: a long board 100x50 mm nailed edgewise to the rafters, and then under it, like under a ridge, support posts are placed in increments 3m.

Front boards and eaves of a gable roof

The construction of the rafter system is completed with the installation of cornices and frontal boards (finishing boards of the pediment). Let's look at how this is done on the layout.

The ends of the rafters are cut along the offset line 30 cm, then a cornice is nailed into the end with a downward displacement 2.5 cm so that the OSB sheets lie freely on the rafter board. The front board is nailed on the gable side. Pay attention to the consoles; they have a projection at the level of the ridge. The front board is nailed to the ridge with two nails, then one nail to each console. You probably noticed the cuts in the rafter board in the previous photo. They are designed for a bar 50x50 mm which is the console. The front board and cornice are joined at an angle 45 degrees.

It's time to lay OSB sheets on the rafters. Lay from the side of the cornice. The principle is the same as for flooring. Mark the edge of the sheet with a cord and lay the first row. The second row is laid in a checkerboard pattern, cutting the first sheet in half. Then the house is covered with metal tiles or other material specified in the project. Now we need to finish the engineering part of the project - piping communications. Then work on insulation and finishing continues.

Construction of frame-panel houses using Canadian technology

Canadian technologies are used in the construction of frame houses from sip panels in Russia. In this case, quickly erected types of foundations are used:

• columnar foundations;
• pile foundations;
• driven reinforced concrete piles;
• drilled cast-in-place piles;
• strip shallow foundations;
• screw piles.

Each of the listed foundations can withstand the load of frame-panel houses. The screw foundation is being erected in 2-3 days.

When designing a screw foundation, the load-bearing capacity of the soil and the maximum weight load of the building are taken into account. The project indicates the perimeter of the building, the location of the load-bearing walls, as well as the location of the piles under the walls of the house. The advantages of a screw foundation: it can be erected in areas with a small difference in height, excavation work is minimized, and is suitable for all soils.

Installation of the grillage followed by laying of the floor panels begins immediately after installing the caps at the ends of the piles. Of the minuses: metal corrosion, it is impossible to create a full-fledged basement.

Installation of floor coverings with sip panels

Choose industrially produced panels for the floor. They are made in compliance with Western technologies. The panel itself consists of two OSB sheets filled with polystyrene foam PSB-S-25 F. The thickness of the insulation varies between 150-250 mm. Sheets 12 mm thick. Factory panels are certified according to Russian standards GOST 15588-86, when purchasing, request a certificate of conformity.

For a frame house made of sip panels, they order a project according to which you can assemble the house yourself if you have construction skills. The constructive section of the project will contain a description of the stages of construction with the attachment of diagrams, drawings, elements of a panel house, starting with the foundation and ending with finishing.

If a pile-screw foundation is chosen, then a grillage is first installed. The strapping begins with laying beams on the pile heads and fastenings. Here is a photo of the timber grillage strapping 150x200 mm.

The foundation was made according to the design, taking into account the covering of sip panels. The timber is attached to the heads with stainless steel screws 10x120 mm from below through holes in the head. But since at the junction points in the corners the joints are made with timber cut into the floor, the joints are additionally secured on top with staples. Recesses are made under the brackets so that the bracket fits flush into the beam. Don’t forget to treat the fresh cut with an antiseptic. Sip panels will be laid on top. Place a waterproofing gasket between the head and the timber.

Important! When designing a house from panel panels, the size of the panels is taken into account. The area of ​​the pile field is designed for this size. The grillage serves to evenly distribute the load created by the weight of the house, taking into account additional loads. Let's start laying the floor.

The grillage is treated with bitumen mastic, each laid panel is also treated from below over the entire surface. The panels are connected through a beam, which is glued with foam into the groove of the panel. Foam is applied on both sides.

Video - How panel-frame houses are built using Canadian technology

Step-by-step instructions for installing a basement floor

Step 1. The panel is laid starting from the corner of the grillage across the floor beams. Then the border of the second row is marked with a cord and the panel is secured with galvanized screws along the outer side in increments 15 cm. Long self-tapping screws from the company Rothoblaas. Choose a length so that it goes through the panel and goes deep into the grillage at least 50 mm in increments of 5 pieces per panel length.

Pay attention to the harness:

• OSB is attached with self-tapping screws 5x70 mm in steps 15 cm on the outside of the grillage;
• the panel groove is glued with SIP ALL foam along the contour, and then with a snake along the surface of the insulation;
• the connecting beam is inserted into the groove of the panel;
• insert the next panel, also glue the end.

Then along the length of the panel, galvanized self-tapping screws are screwed in from the top and bottom, which enter through the OSB into the connecting beam. This increases the rigidity of the structure.

Step 2. Wall installation. Upon completion of the installation of the floor, a foundation beam is placed on the edge of the floor. Walls are mounted on it. The geometry of the beam exactly matches the dimensions of the groove. They recede by 12 mm, which corresponds to the thickness of the OSB. Under the embedded beam, lay a substrate, the same as under the laminate, and screw it to the floor with galvanized self-tapping screws 5x70 mm Then a long self-tapping screw is screwed into the embedded beam.

Installation of a corner wall. First, prepare the panel.

1. Retreat from the bottom end 50 mm, make a mark.
2. Then they place the backing with an overlap under the bottom of the beam and attach it with a stapler.
3. Place the beam on the surface of the panel from the side where the corner meets, aligning it with the mark.
4. Retreat a distance equal 12 mm from the edge of the panel,
5. The beam is secured with two self-tapping screws on both sides of the beam in increments 15 cm.

The photo shows all the elements of the corner panel. The installation method is no different from intermediate and floor panels. The long groove of the next panel will accommodate the corner beam as a tenon. This will form an angle. From the outside, a finishing board is inserted into the groove, having previously foamed the surface of the insulation, then screwed to the OSB with self-tapping screws in increments 15 cm at both sides.

Step 3. Installation of attic ceiling. The technology is the same as when installing floor slabs. There are two ways.

First option. Beam load tables are available from the Canada Building Code. Canadian builders use them. It has been converted to metric measures. It is possible to calculate the load on the floor with sufficient accuracy. The table will help you compare calculations in the project, as well as ask questions to the performers if you suddenly doubt anything.

A frame house using Canadian technology, which was discussed above, consists of floor beams with a section 150x50 mm, the main thing is to observe the dimensions of the permissible spans. Moreover, in the table the board material corresponds to second-grade wood from pine or spruce.

When designing a house and floors, the architect plans to install load-bearing internal walls to support beams in places of probable deflection, thereby redistributing the load on the upper frame of the internal walls. Inside the house, internal walls are constructed from sip panels, with calculations for the supports of the floor beams.

Therefore, if the project specifies a beam made of laminated veneer lumber in areas of long spans, then it must be strengthened.

The method of installing beams resting on frame partitions is discussed in detail above. The photo shows the internal walls and partitions. It is important that the bases of the partitions are on the axis of the lower beams of the basement floor. If there is a heavy bathroom upstairs, then this must be taken into account in the design.

The beams are designed for laying OSB sheets on top, then it will be necessary to insulate the space between the beams with sound insulation, and hem the ceiling with plasterboard.

The second method is to cover the attic sip panels. This option has recently been used for houses made of aerated concrete blocks. There are house designs consisting of floors that rest on the top trim of the panels. If we take into account that the connecting beam has section dimensions of at least 100x150 and even more, then the panels are suitable for between floors. You don’t have to worry about insulating and soundproofing the ceiling. Let's consider this option as well.

Before installation, the top trim is leveled horizontally. Sometimes an electric planer is used. The first corner panel is being prepared. The long edge of the OSB is aligned with the outer edge of the top trim. Check the angle, then screw in the screws along the long side in increments of 15 cm. Prepare the second slab. Installation is similar to the basement floor, only as beams, here they use the top frame of the walls.

Note! Mounting foam is applied under the panel at the intersection with the trim to ensure a hermetically sealed connection of the slab. Additionally, foam acts as a damper against structural noise manifested in the frame. These are exactly the sounds that infuriate us when a neighbor drills into the wall, but foam will protect us from the squeaking of panels when walking.

The ceiling is assembled, then the rafter system is installed. There are attic projects with vertical walls with meter-long or custom-made panels. This will create equal space as in the lower rooms. If you continue to install the rafter system, then you need to secure the support beam for the rafter board along the long sides of the ceiling. The rafter installation technology is the same as in the description above. Only the installation step will be different.

Step 4. Roof made of sip panels. Sip panels are installed on the roofs of wooden, stone, frame and other houses, because they effectively retain heat in the winter and it is not hot under them in the summer, and there are fewer worries about insulation: they fix plasterboard inside, and it is enough to put a thin sheathing under the metal tiles.

Sip panels laid on the ridge are cut at an angle according to the template. They start from the pediment. Assembly as usual using foam, connecting beam, then fastening to the rafter board with self-tapping screws. The gaps are sealed with polyurethane foam. From the façade, the panels are covered with a frontal board, and from the side of the slopes they are covered with a cornice, and at the top they are covered with a ridge. The entire roof is installed, finishing and engineering work can be done.

It is hardly worth controlling the object yourself. The builders will keep calling. The implementation of the project must be carried out under the supervision of an inspector who, at each stage, checks the quality of work according to the checklist attached to the work plan. You will need knowledge of Construction Norms and Rules (SNiP) and other technical conditions.

Order installation from the panel manufacturer, he will produce the panels according to the project. Choose lumber with normal humidity. The connecting and embedding beams must match the dimensions. Fastening materials are used only those specified in the project. Choose panels with a groove 50 mm. Instant houses make it possible to build a house even for not very much money. Choose a project you like and build.

First time idea construction of houses using Canadian technology appeared in 1935 in Madison (Wisconsin, USA). The first panels consisted of two sheets of plywood with a layer of insulation between them. This is how the first houses began to be built using Canadian SIP technology. Over time, plywood was replaced by oriented strand board (OSB or OSB), and polystyrene foam or other similar materials are now used as insulation in a Canadian home.

Modern SIP panels are a durable building material that can withstand heavy structural loads, so prefabricated houses using Canadian technology are reliable and durable. In addition, Canadian technology makes it possible to build very warm houses. Both of these factors ensure the high popularity of Canadian construction technology in Europe and North America.

Canadian house - reliable, fast and economical construction

Russian SNIP limits the height of a building made of SIP panels to two floors. In the West, panel-frame houses are being built using Canadian technology with a height of up to 9 floors. Thus, it can be argued that the safety margin of Russian houses using SIP technology is significantly higher than that of their Western counterparts. Prefabricated Russip houses are earthquake-resistant and can withstand earthquakes up to magnitude 9.

A warm house using Canadian technology is economically beneficial, since its construction requires significantly less time and labor, and, importantly, heating costs are reduced - a Canadian house warms up quickly and retains heat longer, does not require additional insulation and allows the use of internal space premises as efficiently as possible.

Canadian house construction technology is notable for the fact that SIP panels take on the entire power load of the house. However, often a Canadian house is built using wooden beams to connect the panels. Thus, the prefabricated house is further strengthened by the resulting frame.

Using Canadian technology, the walls, roof and floor of the house are pre-fabricated at the factory from SIP panels strictly according to the project, using high-precision equipment. This allows you to significantly simplify the construction process, speed up and reduce the cost, eliminate waste of materials, and minimize the risk of human error. A prefabricated house manufactured at the Russip plant is assembled on the customer’s site in a short time.

One of the main advantages that prefabricated houses from Russip have is the energy-saving and heat-insulating properties of the SIP panel, which ensures a comfortable indoor temperature all year round. Houses using Canadian technology withstand temperature changes from -50 to +50°C. This property allows you to significantly reduce heating costs.

The two-story Canadian house has enormous strength. SIP panels are capable of withstanding a vertical load of 10 tons and a transverse load of 2 tons per m2 (with a standard of 350 kg per m2). Canadian houses can withstand hurricanes, tornadoes, and earthquakes up to magnitude 9. Plus, Canadian houses are lightweight and do not require a massive foundation.

The service life of Russip houses is at least 100 years. Expanded polystyrene does not absorb moisture and is not subject to rotting; it retains its shape and size for a long time. And wooden cladding allows you to maintain dry and clean air inside the house. Our prefabricated houses meet strict international standards for environmental safety of residential buildings.

Ready-made prefabricated houses using Canadian Russip technology have 3 degree of fire resistance and can contain the spread of fire for up to one hour. The sandwich panel contains a fire retardant - a substance that protects wood from ignition and gives the material self-extinguishing properties.

As examples of practical, comfortable and reliable housing, Canadian houses have earned respect throughout the world. With proper insulation, they are able to maintain a comfortable indoor temperature in any cold month, even if severe Russian frosts have set in.

Over the decades, house designs using Canadian technology have become even more advanced. Today it is the perfect combination of lightness and strength. And in view of the increasing popularity of cottage villages, prefabricated houses using Canadian technology are increasingly being built in our country.

To understand why it is worth choosing “frameworks”, it is worth considering their features and advantages. It is a mistake to believe that quality must be expensive, because prices for prefabricated houses using Canadian technology indicate the opposite. This undoubted advantage is caused by an optimized and clearly calculated structural design - no extra building materials for future use, no additional costs for unplanned deliveries, no protracted work deadlines. Canadian home is fast, warm, comfortable and reliable!

House prices

The totality of all the advantages of Canadian houses suggests that North American residents, with their harsh climate, know a lot about construction like no one else. With minimal financial and time expenditures for the construction of frame country houses, cottages and mansions, their service life is not inferior to stone houses. You will receive comfortable, reliable and high-quality housing in the shortest possible time if you order prefabricated houses using Canadian turnkey technology.

For true connoisseurs of the best!

Frame houses using Canadian technology have one significant difference - thermal efficiency. This gives a huge advantage to owners - savings on heating! To warm up your house in winter, you don’t have to heat it for hours, wait for the walls and only then the air to heat up. Plus, prices for turnkey Canadian houses are much lower than for houses made of foam or aerated blocks. And interior decoration in such houses can be done immediately after construction is completed, without waiting for time to shrink, as with timber or log houses.

House designs using Canadian technology surprise with the variety of architectural solutions. And individual design makes it possible to realize any of your dreams - if you like a certain cottage, you have a drawing or even a sketch of the house, it can be made using frame technology.

Advantages of Canadian panel houses from the Mechtaevo company:

• Construction of a full-fledged residential building in the shortest possible time.
• A wide variety of options for designing and applying architectural solutions.
• Resistance to shrinkage - Canadian panel houses can be immediately finished inside.
• High degree of thermal insulation, allowing you to easily endure even severe frosts.
• Reliability and durability in operation.

“Mechtaevo” - we vouch for quality!

Thanks to their reliability, practicality and affordable prices aimed at domestic consumers, frame houses using Canadian technology are gaining increasing popularity in Russia. But who should you entrust with the implementation of the project and construction of your Canadian home and by what criteria should you choose a company that will take on these issues? After all, just owning Canadian construction technology is not enough. The longevity of your home depends on how high-quality materials the company uses, how reliable its suppliers are, how professional and responsible its crews are.

You can be absolutely sure that the house from Mechtaevo will meet all the stated requirements for quality and reliability. This is confirmed by our wealth of years of experience in the design and construction of turnkey Canadian frame houses and grateful customer reviews. By choosing a house using Canadian technology from our company, you will receive everything you need for living and relaxing in your home. Our clients always receive a multi-stage quality control system for construction work - your site will be monitored by a foreman and a technical supervision service. Your Canadian home will be exactly what you dreamed of!

You can find options for finished projects with all room layouts on our website. For detailed information about prefabricated Canadian houses, organizational issues, prices for delivery of building materials, credit and installment plans, please contact the company managers.